ClickHouse/src/Storages/StorageFile.cpp

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#include <Storages/StorageFile.h>
#include <Storages/StorageFactory.h>
#include <Storages/ColumnsDescription.h>
#include <Storages/StorageInMemoryMetadata.h>
#include <Storages/PartitionedSink.h>
#include <Storages/Distributed/DistributedAsyncInsertSource.h>
#include <Storages/checkAndGetLiteralArgument.h>
#include <Storages/ReadFromStorageProgress.h>
#include <Interpreters/Context.h>
#include <Interpreters/evaluateConstantExpression.h>
#include <Parsers/ASTCreateQuery.h>
#include <Parsers/ASTIdentifier_fwd.h>
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#include <Parsers/ASTInsertQuery.h>
#include <Parsers/ASTLiteral.h>
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#include <IO/MMapReadBufferFromFile.h>
#include <IO/MMapReadBufferFromFileDescriptor.h>
#include <IO/ReadBufferFromFile.h>
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#include <IO/ReadBufferFromFileDescriptor.h>
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#include <IO/ReadHelpers.h>
#include <IO/WriteBufferFromFile.h>
#include <IO/WriteHelpers.h>
#include <DataTypes/DataTypeString.h>
#include <Formats/FormatFactory.h>
#include <Formats/ReadSchemaUtils.h>
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#include <Processors/Sinks/SinkToStorage.h>
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#include <Processors/Transforms/AddingDefaultsTransform.h>
#include <Processors/ISource.h>
#include <Processors/Formats/IOutputFormat.h>
#include <Processors/Formats/IInputFormat.h>
#include <Processors/Formats/ISchemaReader.h>
#include <Processors/Sources/NullSource.h>
#include <Processors/Executors/PullingPipelineExecutor.h>
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#include <Processors/ResizeProcessor.h>
#include <Common/escapeForFileName.h>
#include <Common/typeid_cast.h>
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#include <Common/parseGlobs.h>
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#include <Common/filesystemHelpers.h>
#include <Common/logger_useful.h>
#include <Common/ProfileEvents.h>
#include <QueryPipeline/Pipe.h>
#include <QueryPipeline/QueryPipelineBuilder.h>
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#include <sys/stat.h>
#include <fcntl.h>
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#include <unistd.h>
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#include <re2/re2.h>
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#include <filesystem>
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#include <shared_mutex>
#include <cmath>
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#include <algorithm>
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namespace ProfileEvents
{
extern const Event CreatedReadBufferOrdinary;
extern const Event CreatedReadBufferMMap;
extern const Event CreatedReadBufferMMapFailed;
}
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namespace fs = std::filesystem;
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namespace DB
{
namespace ErrorCodes
{
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extern const int BAD_ARGUMENTS;
extern const int NOT_IMPLEMENTED;
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extern const int CANNOT_FSTAT;
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extern const int CANNOT_TRUNCATE_FILE;
extern const int DATABASE_ACCESS_DENIED;
extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH;
extern const int UNKNOWN_IDENTIFIER;
extern const int INCORRECT_FILE_NAME;
extern const int FILE_DOESNT_EXIST;
extern const int FILE_ALREADY_EXISTS;
extern const int TIMEOUT_EXCEEDED;
extern const int INCOMPATIBLE_COLUMNS;
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extern const int CANNOT_STAT;
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extern const int LOGICAL_ERROR;
extern const int CANNOT_APPEND_TO_FILE;
extern const int CANNOT_EXTRACT_TABLE_STRUCTURE;
extern const int CANNOT_COMPILE_REGEXP;
}
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namespace
{
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/* Recursive directory listing with matched paths as a result.
* Have the same method in StorageHDFS.
*/
void listFilesWithRegexpMatchingImpl(
const std::string & path_for_ls,
const std::string & for_match,
size_t & total_bytes_to_read,
std::vector<std::string> & result,
bool recursive = false)
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{
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const size_t first_glob = for_match.find_first_of("*?{");
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const size_t end_of_path_without_globs = for_match.substr(0, first_glob).rfind('/');
const std::string suffix_with_globs = for_match.substr(end_of_path_without_globs); /// begin with '/'
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const size_t next_slash = suffix_with_globs.find('/', 1);
const std::string current_glob = suffix_with_globs.substr(0, next_slash);
auto regexp = makeRegexpPatternFromGlobs(current_glob);
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re2::RE2 matcher(regexp);
if (!matcher.ok())
throw Exception(ErrorCodes::CANNOT_COMPILE_REGEXP,
"Cannot compile regex from glob ({}): {}", for_match, matcher.error());
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bool skip_regex = current_glob == "/*" ? true : false;
if (!recursive)
recursive = current_glob == "/**" ;
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const std::string prefix_without_globs = path_for_ls + for_match.substr(1, end_of_path_without_globs);
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if (!fs::exists(prefix_without_globs))
return;
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const fs::directory_iterator end;
for (fs::directory_iterator it(prefix_without_globs); it != end; ++it)
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{
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const std::string full_path = it->path().string();
const size_t last_slash = full_path.rfind('/');
const String file_name = full_path.substr(last_slash);
const bool looking_for_directory = next_slash != std::string::npos;
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/// Condition is_directory means what kind of path is it in current iteration of ls
if (!it->is_directory() && !looking_for_directory)
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{
if (skip_regex || re2::RE2::FullMatch(file_name, matcher))
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{
total_bytes_to_read += it->file_size();
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result.push_back(it->path().string());
}
}
else if (it->is_directory())
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{
if (recursive)
{
listFilesWithRegexpMatchingImpl(fs::path(full_path).append(it->path().string()) / "" ,
looking_for_directory ? suffix_with_globs.substr(next_slash) : current_glob ,
total_bytes_to_read, result, recursive);
}
else if (looking_for_directory && re2::RE2::FullMatch(file_name, matcher))
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{
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/// Recursion depth is limited by pattern. '*' works only for depth = 1, for depth = 2 pattern path is '*/*'. So we do not need additional check.
listFilesWithRegexpMatchingImpl(fs::path(full_path) / "", suffix_with_globs.substr(next_slash), total_bytes_to_read, result);
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}
}
}
}
std::vector<std::string> listFilesWithRegexpMatching(
const std::string & path_for_ls,
const std::string & for_match,
size_t & total_bytes_to_read)
{
std::vector<std::string> result;
listFilesWithRegexpMatchingImpl(path_for_ls, for_match, total_bytes_to_read, result);
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return result;
}
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std::string getTablePath(const std::string & table_dir_path, const std::string & format_name)
{
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return table_dir_path + "/data." + escapeForFileName(format_name);
}
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/// Both db_dir_path and table_path must be converted to absolute paths (in particular, path cannot contain '..').
void checkCreationIsAllowed(
ContextPtr context_global,
const std::string & db_dir_path,
const std::string & table_path,
bool can_be_directory)
{
if (context_global->getApplicationType() != Context::ApplicationType::SERVER)
return;
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/// "/dev/null" is allowed for perf testing
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if (!fileOrSymlinkPathStartsWith(table_path, db_dir_path) && table_path != "/dev/null")
throw Exception(ErrorCodes::DATABASE_ACCESS_DENIED, "File `{}` is not inside `{}`", table_path, db_dir_path);
if (can_be_directory)
{
auto table_path_stat = fs::status(table_path);
if (fs::exists(table_path_stat) && fs::is_directory(table_path_stat))
throw Exception(ErrorCodes::INCORRECT_FILE_NAME, "File must not be a directory");
}
}
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std::unique_ptr<ReadBuffer> selectReadBuffer(
const String & current_path,
bool use_table_fd,
int table_fd,
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const struct stat & file_stat,
ContextPtr context)
{
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auto read_method = context->getSettingsRef().storage_file_read_method;
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/** But using mmap on server-side is unsafe for the following reasons:
* - concurrent modifications of a file will result in SIGBUS;
* - IO error from the device will result in SIGBUS;
* - recovery from this signal is not feasible even with the usage of siglongjmp,
* as it might require stack unwinding from arbitrary place;
* - arbitrary slowdown due to page fault in arbitrary place in the code is difficult to debug.
*
* But we keep this mode for clickhouse-local as it is not so bad for a command line tool.
*/
if (S_ISREG(file_stat.st_mode)
&& context->getApplicationType() != Context::ApplicationType::SERVER
&& read_method == LocalFSReadMethod::mmap)
{
try
{
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std::unique_ptr<ReadBufferFromFileBase> res;
if (use_table_fd)
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res = std::make_unique<MMapReadBufferFromFileDescriptor>(table_fd, 0);
else
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res = std::make_unique<MMapReadBufferFromFile>(current_path, 0);
ProfileEvents::increment(ProfileEvents::CreatedReadBufferMMap);
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return res;
}
catch (const ErrnoException &)
{
/// Fallback if mmap is not supported.
ProfileEvents::increment(ProfileEvents::CreatedReadBufferMMapFailed);
}
}
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std::unique_ptr<ReadBufferFromFileBase> res;
if (S_ISREG(file_stat.st_mode) && (read_method == LocalFSReadMethod::pread || read_method == LocalFSReadMethod::mmap))
{
if (use_table_fd)
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res = std::make_unique<ReadBufferFromFileDescriptorPRead>(table_fd);
else
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res = std::make_unique<ReadBufferFromFilePRead>(current_path, context->getSettingsRef().max_read_buffer_size);
ProfileEvents::increment(ProfileEvents::CreatedReadBufferOrdinary);
}
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else
{
if (use_table_fd)
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res = std::make_unique<ReadBufferFromFileDescriptor>(table_fd);
else
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res = std::make_unique<ReadBufferFromFile>(current_path, context->getSettingsRef().max_read_buffer_size);
ProfileEvents::increment(ProfileEvents::CreatedReadBufferOrdinary);
}
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return res;
}
struct stat getFileStat(const String & current_path, bool use_table_fd, int table_fd, const String & storage_name)
{
struct stat file_stat{};
if (use_table_fd)
{
/// Check if file descriptor allows random reads (and reading it twice).
if (0 != fstat(table_fd, &file_stat))
throwFromErrno("Cannot stat table file descriptor, inside " + storage_name, ErrorCodes::CANNOT_STAT);
}
else
{
/// Check if file descriptor allows random reads (and reading it twice).
if (0 != stat(current_path.c_str(), &file_stat))
throwFromErrno("Cannot stat file " + current_path, ErrorCodes::CANNOT_STAT);
}
return file_stat;
}
std::unique_ptr<ReadBuffer> createReadBuffer(
const String & current_path,
const struct stat & file_stat,
bool use_table_fd,
int table_fd,
const String & compression_method,
ContextPtr context)
{
CompressionMethod method;
if (use_table_fd)
method = chooseCompressionMethod("", compression_method);
else
method = chooseCompressionMethod(current_path, compression_method);
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std::unique_ptr<ReadBuffer> nested_buffer = selectReadBuffer(current_path, use_table_fd, table_fd, file_stat, context);
/// For clickhouse-local and clickhouse-client add progress callback to display progress bar.
if (context->getApplicationType() == Context::ApplicationType::LOCAL
|| context->getApplicationType() == Context::ApplicationType::CLIENT)
{
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auto & in = static_cast<ReadBufferFromFileBase &>(*nested_buffer);
in.setProgressCallback(context);
}
int zstd_window_log_max = static_cast<int>(context->getSettingsRef().zstd_window_log_max);
return wrapReadBufferWithCompressionMethod(std::move(nested_buffer), method, zstd_window_log_max);
}
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}
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Strings StorageFile::getPathsList(const String & table_path, const String & user_files_path, ContextPtr context, size_t & total_bytes_to_read)
{
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fs::path user_files_absolute_path = fs::weakly_canonical(user_files_path);
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fs::path fs_table_path(table_path);
if (fs_table_path.is_relative())
fs_table_path = user_files_absolute_path / fs_table_path;
Strings paths;
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/// Do not use fs::canonical or fs::weakly_canonical.
/// Otherwise it will not allow to work with symlinks in `user_files_path` directory.
String path = fs::absolute(fs_table_path).lexically_normal(); /// Normalize path.
bool can_be_directory = true;
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if (path.find(PartitionedSink::PARTITION_ID_WILDCARD) != std::string::npos)
{
paths.push_back(path);
}
else if (path.find_first_of("*?{") == std::string::npos)
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{
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std::error_code error;
size_t size = fs::file_size(path, error);
if (!error)
total_bytes_to_read += size;
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paths.push_back(path);
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}
else
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{
/// We list only non-directory files.
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paths = listFilesWithRegexpMatching("/", path, total_bytes_to_read);
can_be_directory = false;
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}
for (const auto & cur_path : paths)
checkCreationIsAllowed(context, user_files_absolute_path, cur_path, can_be_directory);
return paths;
}
ColumnsDescription StorageFile::getTableStructureFromFileDescriptor(ContextPtr context)
{
/// If we want to read schema from file descriptor we should create
/// a read buffer from fd, create a checkpoint, read some data required
/// for schema inference, rollback to checkpoint and then use the created
/// peekable read buffer on the first read from storage. It's needed because
/// in case of file descriptor we have a stream of data and we cannot
/// start reading data from the beginning after reading some data for
/// schema inference.
ReadBufferIterator read_buffer_iterator = [&](ColumnsDescription &)
{
/// We will use PeekableReadBuffer to create a checkpoint, so we need a place
/// where we can store the original read buffer.
auto file_stat = getFileStat("", true, table_fd, getName());
read_buffer_from_fd = createReadBuffer("", file_stat, true, table_fd, compression_method, context);
auto read_buf = std::make_unique<PeekableReadBuffer>(*read_buffer_from_fd);
read_buf->setCheckpoint();
return read_buf;
};
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auto columns = readSchemaFromFormat(format_name, format_settings, read_buffer_iterator, false, context, peekable_read_buffer_from_fd);
if (peekable_read_buffer_from_fd)
{
/// If we have created read buffer in readSchemaFromFormat we should rollback to checkpoint.
assert_cast<PeekableReadBuffer *>(peekable_read_buffer_from_fd.get())->rollbackToCheckpoint();
has_peekable_read_buffer_from_fd = true;
}
return columns;
}
ColumnsDescription StorageFile::getTableStructureFromFile(
const String & format,
const std::vector<String> & paths,
const String & compression_method,
const std::optional<FormatSettings> & format_settings,
ContextPtr context)
{
if (format == "Distributed")
{
if (paths.empty())
throw Exception(ErrorCodes::INCORRECT_FILE_NAME, "Cannot get table structure from file, because no files match specified name");
return ColumnsDescription(DistributedAsyncInsertSource(paths[0]).getOutputs().front().getHeader().getNamesAndTypesList());
}
if (paths.empty() && !FormatFactory::instance().checkIfFormatHasExternalSchemaReader(format))
throw Exception(
ErrorCodes::CANNOT_EXTRACT_TABLE_STRUCTURE,
"Cannot extract table structure from {} format file, because there are no files with provided path. "
"You must specify table structure manually", format);
std::optional<ColumnsDescription> columns_from_cache;
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if (context->getSettingsRef().schema_inference_use_cache_for_file)
columns_from_cache = tryGetColumnsFromCache(paths, format, format_settings, context);
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ReadBufferIterator read_buffer_iterator = [&, it = paths.begin(), first = true](ColumnsDescription &) mutable -> std::unique_ptr<ReadBuffer>
{
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String path;
struct stat file_stat;
do
{
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if (it == paths.end())
{
if (first)
throw Exception(
ErrorCodes::CANNOT_EXTRACT_TABLE_STRUCTURE,
"Cannot extract table structure from {} format file, because all files are empty. You must specify table structure manually",
format);
return nullptr;
}
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path = *it++;
file_stat = getFileStat(path, false, -1, "File");
}
while (context->getSettingsRef().engine_file_skip_empty_files && file_stat.st_size == 0);
first = false;
return createReadBuffer(path, file_stat, false, -1, compression_method, context);
};
ColumnsDescription columns;
if (columns_from_cache)
columns = *columns_from_cache;
else
columns = readSchemaFromFormat(format, format_settings, read_buffer_iterator, paths.size() > 1, context);
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if (context->getSettingsRef().schema_inference_use_cache_for_file)
addColumnsToCache(paths, columns, format, format_settings, context);
return columns;
}
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bool StorageFile::supportsSubsetOfColumns() const
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{
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return format_name != "Distributed" && FormatFactory::instance().checkIfFormatSupportsSubsetOfColumns(format_name);
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}
bool StorageFile::prefersLargeBlocks() const
{
return FormatFactory::instance().checkIfOutputFormatPrefersLargeBlocks(format_name);
}
bool StorageFile::parallelizeOutputAfterReading(ContextPtr context) const
{
return FormatFactory::instance().checkParallelizeOutputAfterReading(format_name, context);
}
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StorageFile::StorageFile(int table_fd_, CommonArguments args)
: StorageFile(args)
{
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struct stat buf;
int res = fstat(table_fd_, &buf);
if (-1 == res)
throwFromErrno("Cannot execute fstat", res, ErrorCodes::CANNOT_FSTAT);
total_bytes_to_read = buf.st_size;
if (args.getContext()->getApplicationType() == Context::ApplicationType::SERVER)
throw Exception(ErrorCodes::DATABASE_ACCESS_DENIED, "Using file descriptor as source of storage isn't allowed for server daemons");
if (args.format_name == "Distributed")
throw Exception(ErrorCodes::INCORRECT_FILE_NAME, "Distributed format is allowed only with explicit file path");
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is_db_table = false;
use_table_fd = true;
table_fd = table_fd_;
setStorageMetadata(args);
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}
StorageFile::StorageFile(const std::string & table_path_, const std::string & user_files_path, CommonArguments args)
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: StorageFile(args)
{
is_db_table = false;
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paths = getPathsList(table_path_, user_files_path, args.getContext(), total_bytes_to_read);
is_path_with_globs = paths.size() > 1;
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if (!paths.empty())
path_for_partitioned_write = paths.front();
else
path_for_partitioned_write = table_path_;
file_renamer = FileRenamer(args.rename_after_processing);
setStorageMetadata(args);
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}
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StorageFile::StorageFile(const std::string & relative_table_dir_path, CommonArguments args)
: StorageFile(args)
{
if (relative_table_dir_path.empty())
throw Exception(ErrorCodes::INCORRECT_FILE_NAME, "Storage {} requires data path", getName());
if (args.format_name == "Distributed")
throw Exception(ErrorCodes::INCORRECT_FILE_NAME, "Distributed format is allowed only with explicit file path");
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String table_dir_path = fs::path(base_path) / relative_table_dir_path / "";
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fs::create_directories(table_dir_path);
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paths = {getTablePath(table_dir_path, format_name)};
std::error_code error;
size_t size = fs::file_size(paths[0], error);
if (!error)
total_bytes_to_read = size;
setStorageMetadata(args);
}
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StorageFile::StorageFile(CommonArguments args)
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: IStorage(args.table_id)
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, format_name(args.format_name)
, format_settings(args.format_settings)
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, compression_method(args.compression_method)
, base_path(args.getContext()->getPath())
{
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if (format_name != "Distributed")
FormatFactory::instance().checkFormatName(format_name);
}
void StorageFile::setStorageMetadata(CommonArguments args)
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{
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StorageInMemoryMetadata storage_metadata;
if (args.format_name == "Distributed" || args.columns.empty())
{
ColumnsDescription columns;
if (use_table_fd)
columns = getTableStructureFromFileDescriptor(args.getContext());
else
{
columns = getTableStructureFromFile(format_name, paths, compression_method, format_settings, args.getContext());
if (!args.columns.empty() && args.columns != columns)
throw Exception(ErrorCodes::INCOMPATIBLE_COLUMNS, "Table structure and file structure are different");
}
storage_metadata.setColumns(columns);
}
else
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storage_metadata.setColumns(args.columns);
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storage_metadata.setConstraints(args.constraints);
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storage_metadata.setComment(args.comment);
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setInMemoryMetadata(storage_metadata);
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}
static std::chrono::seconds getLockTimeout(ContextPtr context)
{
const Settings & settings = context->getSettingsRef();
Int64 lock_timeout = settings.lock_acquire_timeout.totalSeconds();
if (settings.max_execution_time.totalSeconds() != 0 && settings.max_execution_time.totalSeconds() < lock_timeout)
lock_timeout = settings.max_execution_time.totalSeconds();
return std::chrono::seconds{lock_timeout};
}
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using StorageFilePtr = std::shared_ptr<StorageFile>;
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class StorageFileSource : public ISource
{
public:
struct FilesInfo
{
std::vector<std::string> files;
std::atomic<size_t> next_file_to_read = 0;
bool need_path_column = false;
bool need_file_column = false;
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size_t total_bytes_to_read = 0;
};
using FilesInfoPtr = std::shared_ptr<FilesInfo>;
static Block getBlockForSource(const Block & block_for_format, const FilesInfoPtr & files_info)
{
auto res = block_for_format;
if (files_info->need_path_column)
{
res.insert(
{DataTypeLowCardinality{std::make_shared<DataTypeString>()}.createColumn(),
std::make_shared<DataTypeLowCardinality>(std::make_shared<DataTypeString>()),
"_path"});
}
if (files_info->need_file_column)
{
res.insert(
{DataTypeLowCardinality{std::make_shared<DataTypeString>()}.createColumn(),
std::make_shared<DataTypeLowCardinality>(std::make_shared<DataTypeString>()),
"_file"});
}
return res;
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}
StorageFileSource(
std::shared_ptr<StorageFile> storage_,
const StorageSnapshotPtr & storage_snapshot_,
ContextPtr context_,
UInt64 max_block_size_,
FilesInfoPtr files_info_,
ColumnsDescription columns_description_,
const Block & block_for_format_,
std::unique_ptr<ReadBuffer> read_buf_)
: ISource(getBlockForSource(block_for_format_, files_info_))
, storage(std::move(storage_))
, storage_snapshot(storage_snapshot_)
, files_info(std::move(files_info_))
, read_buf(std::move(read_buf_))
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, columns_description(std::move(columns_description_))
, block_for_format(block_for_format_)
, context(context_)
, max_block_size(max_block_size_)
{
if (!storage->use_table_fd)
{
shared_lock = std::shared_lock(storage->rwlock, getLockTimeout(context));
if (!shared_lock)
throw Exception(ErrorCodes::TIMEOUT_EXCEEDED, "Lock timeout exceeded");
storage->readers_counter.fetch_add(1, std::memory_order_release);
}
}
/**
* If specified option --rename_files_after_processing and files created by TableFunctionFile
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* Last reader will rename files according to specified pattern if desctuctor of reader was called without uncaught exceptions
*/
void beforeDestroy()
{
if (storage->file_renamer.isEmpty())
return;
int32_t cnt = storage->readers_counter.fetch_sub(1, std::memory_order_acq_rel);
if (std::uncaught_exceptions() == 0 && cnt == 1 && !storage->was_renamed)
{
shared_lock.unlock();
auto exclusive_lock = std::unique_lock{storage->rwlock, getLockTimeout(context)};
if (!exclusive_lock)
return;
if (storage->readers_counter.load(std::memory_order_acquire) != 0 || storage->was_renamed)
return;
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for (auto & file_path_ref : storage->paths)
{
try
{
auto file_path = fs::path(file_path_ref);
String new_filename = storage->file_renamer.generateNewFilename(file_path.filename().string());
file_path.replace_filename(new_filename);
// Normalize new path
file_path = file_path.lexically_normal();
// Checking access rights
checkCreationIsAllowed(context, context->getUserFilesPath(), file_path, true);
// Checking an existing of new file
if (fs::exists(file_path))
throw Exception(ErrorCodes::FILE_ALREADY_EXISTS, "File {} already exists", file_path.string());
fs::rename(fs::path(file_path_ref), file_path);
file_path_ref = file_path.string();
storage->was_renamed = true;
}
catch (const std::exception & e)
{
// Cannot throw exception from destructor, will write only error
LOG_ERROR(&Poco::Logger::get("~StorageFileSource"), "Failed to rename file {}: {}", file_path_ref, e.what());
continue;
}
}
}
}
~StorageFileSource() override
{
beforeDestroy();
}
String getName() const override
{
return storage->getName();
}
Chunk generate() override
{
while (!finished_generate)
{
/// Open file lazily on first read. This is needed to avoid too many open files from different streams.
if (!reader)
{
if (!storage->use_table_fd)
{
auto current_file = files_info->next_file_to_read.fetch_add(1);
if (current_file >= files_info->files.size())
return {};
current_path = files_info->files[current_file];
/// Special case for distributed format. Defaults are not needed here.
if (storage->format_name == "Distributed")
{
pipeline = std::make_unique<QueryPipeline>(std::make_shared<DistributedAsyncInsertSource>(current_path));
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reader = std::make_unique<PullingPipelineExecutor>(*pipeline);
continue;
}
}
if (!read_buf)
{
auto file_stat = getFileStat(current_path, storage->use_table_fd, storage->table_fd, storage->getName());
if (context->getSettingsRef().engine_file_skip_empty_files && file_stat.st_size == 0)
continue;
read_buf = createReadBuffer(current_path, file_stat, storage->use_table_fd, storage->table_fd, storage->compression_method, context);
}
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size_t file_size = tryGetFileSizeFromReadBuffer(*read_buf).value_or(0);
/// Adjust total_rows_approx_accumulated with new total size.
if (total_files_size)
total_rows_approx_accumulated = static_cast<size_t>(std::ceil(static_cast<double>(total_files_size + file_size) / total_files_size * total_rows_approx_accumulated));
total_files_size += file_size;
const Settings & settings = context->getSettingsRef();
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chassert(!storage->paths.empty());
const auto max_parsing_threads = std::max<size_t>(settings.max_threads/ storage->paths.size(), 1UL);
input_format = context->getInputFormat(storage->format_name, *read_buf, block_for_format, max_block_size, storage->format_settings, max_parsing_threads);
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QueryPipelineBuilder builder;
builder.init(Pipe(input_format));
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if (columns_description.hasDefaults())
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{
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builder.addSimpleTransform([&](const Block & header)
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{
return std::make_shared<AddingDefaultsTransform>(header, columns_description, *input_format, context);
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});
}
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pipeline = std::make_unique<QueryPipeline>(QueryPipelineBuilder::getPipeline(std::move(builder)));
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reader = std::make_unique<PullingPipelineExecutor>(*pipeline);
}
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Chunk chunk;
if (reader->pull(chunk))
{
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UInt64 num_rows = chunk.getNumRows();
/// Enrich with virtual columns.
if (files_info->need_path_column)
{
auto column = DataTypeLowCardinality{std::make_shared<DataTypeString>()}.createColumnConst(num_rows, current_path);
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chunk.addColumn(column->convertToFullColumnIfConst());
}
if (files_info->need_file_column)
{
size_t last_slash_pos = current_path.find_last_of('/');
auto file_name = current_path.substr(last_slash_pos + 1);
auto column = DataTypeLowCardinality{std::make_shared<DataTypeString>()}.createColumnConst(num_rows, std::move(file_name));
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chunk.addColumn(column->convertToFullColumnIfConst());
}
if (num_rows && total_files_size)
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{
size_t chunk_size = input_format->getApproxBytesReadForChunk();
if (!chunk_size)
chunk_size = chunk.bytes();
updateRowsProgressApprox(
*this, num_rows, chunk_size, total_files_size, total_rows_approx_accumulated, total_rows_count_times, total_rows_approx_max);
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}
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return chunk;
}
/// Read only once for file descriptor.
if (storage->use_table_fd)
finished_generate = true;
/// Close file prematurely if stream was ended.
reader.reset();
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pipeline.reset();
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input_format.reset();
read_buf.reset();
}
return {};
}
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private:
std::shared_ptr<StorageFile> storage;
StorageSnapshotPtr storage_snapshot;
FilesInfoPtr files_info;
String current_path;
Block sample_block;
std::unique_ptr<ReadBuffer> read_buf;
InputFormatPtr input_format;
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std::unique_ptr<QueryPipeline> pipeline;
std::unique_ptr<PullingPipelineExecutor> reader;
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ColumnsDescription columns_description;
Block block_for_format;
ContextPtr context; /// TODO Untangle potential issues with context lifetime.
UInt64 max_block_size;
bool finished_generate = false;
std::shared_lock<std::shared_timed_mutex> shared_lock;
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UInt64 total_rows_approx_accumulated = 0;
size_t total_rows_count_times = 0;
UInt64 total_rows_approx_max = 0;
size_t total_files_size = 0;
};
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Pipe StorageFile::read(
const Names & column_names,
const StorageSnapshotPtr & storage_snapshot,
SelectQueryInfo & /*query_info*/,
ContextPtr context,
QueryProcessingStage::Enum /*processed_stage*/,
size_t max_block_size,
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const size_t max_num_streams)
{
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if (use_table_fd)
{
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paths = {""}; /// when use fd, paths are empty
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}
else
{
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if (paths.size() == 1 && !fs::exists(paths[0]))
{
if (context->getSettingsRef().engine_file_empty_if_not_exists)
return Pipe(std::make_shared<NullSource>(storage_snapshot->getSampleBlockForColumns(column_names)));
else
throw Exception(ErrorCodes::FILE_DOESNT_EXIST, "File {} doesn't exist", paths[0]);
}
}
auto files_info = std::make_shared<StorageFileSource::FilesInfo>();
files_info->files = paths;
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files_info->total_bytes_to_read = total_bytes_to_read;
for (const auto & column : column_names)
{
if (column == "_path")
files_info->need_path_column = true;
if (column == "_file")
files_info->need_file_column = true;
}
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auto this_ptr = std::static_pointer_cast<StorageFile>(shared_from_this());
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size_t num_streams = max_num_streams;
if (max_num_streams > paths.size())
num_streams = paths.size();
Pipes pipes;
pipes.reserve(num_streams);
/// Set total number of bytes to process. For progress bar.
auto progress_callback = context->getFileProgressCallback();
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if (progress_callback)
progress_callback(FileProgress(0, total_bytes_to_read));
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for (size_t i = 0; i < num_streams; ++i)
{
ColumnsDescription columns_description;
Block block_for_format;
if (supportsSubsetOfColumns())
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{
auto fetch_columns = column_names;
const auto & virtuals = getVirtuals();
std::erase_if(
fetch_columns,
[&](const String & col)
{
return std::any_of(
virtuals.begin(), virtuals.end(), [&](const NameAndTypePair & virtual_col) { return col == virtual_col.name; });
});
if (fetch_columns.empty())
fetch_columns.push_back(ExpressionActions::getSmallestColumn(storage_snapshot->metadata->getColumns().getAllPhysical()).name);
columns_description = storage_snapshot->getDescriptionForColumns(fetch_columns);
}
else
{
columns_description = storage_snapshot->metadata->getColumns();
}
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block_for_format = storage_snapshot->getSampleBlockForColumns(columns_description.getNamesOfPhysical());
/// In case of reading from fd we have to check whether we have already created
/// the read buffer from it in Storage constructor (for schema inference) or not.
/// If yes, then we should use it in StorageFileSource. Atomic bool flag is needed
/// to prevent data race in case of parallel reads.
std::unique_ptr<ReadBuffer> read_buffer;
if (has_peekable_read_buffer_from_fd.exchange(false))
read_buffer = std::move(peekable_read_buffer_from_fd);
pipes.emplace_back(std::make_shared<StorageFileSource>(
this_ptr,
storage_snapshot,
context,
max_block_size,
files_info,
columns_description,
block_for_format,
std::move(read_buffer)));
}
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return Pipe::unitePipes(std::move(pipes));
}
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class StorageFileSink final : public SinkToStorage
{
public:
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StorageFileSink(
const StorageMetadataPtr & metadata_snapshot_,
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const String & table_name_for_log_,
int table_fd_,
bool use_table_fd_,
std::string base_path_,
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std::string path_,
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const CompressionMethod compression_method_,
const std::optional<FormatSettings> & format_settings_,
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const String format_name_,
ContextPtr context_,
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int flags_)
: SinkToStorage(metadata_snapshot_->getSampleBlock())
, metadata_snapshot(metadata_snapshot_)
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, table_name_for_log(table_name_for_log_)
, table_fd(table_fd_)
, use_table_fd(use_table_fd_)
, base_path(base_path_)
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, path(path_)
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, compression_method(compression_method_)
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, format_name(format_name_)
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, format_settings(format_settings_)
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, context(context_)
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, flags(flags_)
{
initialize();
}
StorageFileSink(
const StorageMetadataPtr & metadata_snapshot_,
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const String & table_name_for_log_,
std::unique_lock<std::shared_timed_mutex> && lock_,
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int table_fd_,
bool use_table_fd_,
std::string base_path_,
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const std::string & path_,
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const CompressionMethod compression_method_,
const std::optional<FormatSettings> & format_settings_,
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const String format_name_,
ContextPtr context_,
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int flags_)
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: SinkToStorage(metadata_snapshot_->getSampleBlock())
, metadata_snapshot(metadata_snapshot_)
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, table_name_for_log(table_name_for_log_)
, table_fd(table_fd_)
, use_table_fd(use_table_fd_)
, base_path(base_path_)
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, path(path_)
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, compression_method(compression_method_)
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, format_name(format_name_)
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, format_settings(format_settings_)
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, context(context_)
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, flags(flags_)
, lock(std::move(lock_))
{
if (!lock)
throw Exception(ErrorCodes::TIMEOUT_EXCEEDED, "Lock timeout exceeded");
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initialize();
}
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void initialize()
{
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std::unique_ptr<WriteBufferFromFileDescriptor> naked_buffer = nullptr;
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if (use_table_fd)
{
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naked_buffer = std::make_unique<WriteBufferFromFileDescriptor>(table_fd, DBMS_DEFAULT_BUFFER_SIZE);
}
else
{
flags |= O_WRONLY | O_APPEND | O_CREAT;
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naked_buffer = std::make_unique<WriteBufferFromFile>(path, DBMS_DEFAULT_BUFFER_SIZE, flags);
}
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/// In case of formats with prefixes if file is not empty we have already written prefix.
bool do_not_write_prefix = naked_buffer->size();
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write_buf = wrapWriteBufferWithCompressionMethod(std::move(naked_buffer), compression_method, 3);
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writer = FormatFactory::instance().getOutputFormatParallelIfPossible(format_name,
*write_buf, metadata_snapshot->getSampleBlock(), context, format_settings);
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if (do_not_write_prefix)
writer->doNotWritePrefix();
}
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String getName() const override { return "StorageFileSink"; }
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void consume(Chunk chunk) override
{
std::lock_guard cancel_lock(cancel_mutex);
if (cancelled)
return;
writer->write(getHeader().cloneWithColumns(chunk.detachColumns()));
}
void onCancel() override
{
std::lock_guard cancel_lock(cancel_mutex);
finalize();
cancelled = true;
}
void onException() override
{
std::lock_guard cancel_lock(cancel_mutex);
finalize();
}
void onFinish() override
{
std::lock_guard cancel_lock(cancel_mutex);
finalize();
}
private:
void finalize()
{
if (!writer)
return;
try
{
writer->finalize();
writer->flush();
write_buf->finalize();
}
catch (...)
{
/// Stop ParallelFormattingOutputFormat correctly.
writer.reset();
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write_buf->finalize();
throw;
}
}
StorageMetadataPtr metadata_snapshot;
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String table_name_for_log;
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std::unique_ptr<WriteBuffer> write_buf;
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OutputFormatPtr writer;
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int table_fd;
bool use_table_fd;
std::string base_path;
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std::string path;
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CompressionMethod compression_method;
std::string format_name;
std::optional<FormatSettings> format_settings;
ContextPtr context;
int flags;
std::unique_lock<std::shared_timed_mutex> lock;
std::mutex cancel_mutex;
bool cancelled = false;
};
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class PartitionedStorageFileSink : public PartitionedSink
{
public:
PartitionedStorageFileSink(
const ASTPtr & partition_by,
const StorageMetadataPtr & metadata_snapshot_,
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const String & table_name_for_log_,
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std::unique_lock<std::shared_timed_mutex> && lock_,
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String base_path_,
String path_,
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const CompressionMethod compression_method_,
const std::optional<FormatSettings> & format_settings_,
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const String format_name_,
ContextPtr context_,
int flags_)
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: PartitionedSink(partition_by, context_, metadata_snapshot_->getSampleBlock())
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, path(path_)
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, metadata_snapshot(metadata_snapshot_)
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, table_name_for_log(table_name_for_log_)
, base_path(base_path_)
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, compression_method(compression_method_)
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, format_name(format_name_)
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, format_settings(format_settings_)
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, context(context_)
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, flags(flags_)
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, lock(std::move(lock_))
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{
}
SinkPtr createSinkForPartition(const String & partition_id) override
{
auto partition_path = PartitionedSink::replaceWildcards(path, partition_id);
PartitionedSink::validatePartitionKey(partition_path, true);
checkCreationIsAllowed(context, context->getUserFilesPath(), partition_path, /*can_be_directory=*/ true);
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return std::make_shared<StorageFileSink>(
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metadata_snapshot,
table_name_for_log,
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-1,
/* use_table_fd */false,
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base_path,
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partition_path,
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compression_method,
format_settings,
format_name,
context,
flags);
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}
private:
const String path;
StorageMetadataPtr metadata_snapshot;
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String table_name_for_log;
std::string base_path;
CompressionMethod compression_method;
std::string format_name;
std::optional<FormatSettings> format_settings;
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ContextPtr context;
int flags;
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std::unique_lock<std::shared_timed_mutex> lock;
};
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SinkToStoragePtr StorageFile::write(
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const ASTPtr & query,
const StorageMetadataPtr & metadata_snapshot,
ContextPtr context,
bool /*async_insert*/)
{
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if (format_name == "Distributed")
throw Exception(ErrorCodes::NOT_IMPLEMENTED, "Method write is not implemented for Distributed format");
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int flags = 0;
if (context->getSettingsRef().engine_file_truncate_on_insert)
flags |= O_TRUNC;
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bool has_wildcards = path_for_partitioned_write.find(PartitionedSink::PARTITION_ID_WILDCARD) != String::npos;
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const auto * insert_query = dynamic_cast<const ASTInsertQuery *>(query.get());
bool is_partitioned_implementation = insert_query && insert_query->partition_by && has_wildcards;
if (is_partitioned_implementation)
{
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if (path_for_partitioned_write.empty())
throw Exception(ErrorCodes::LOGICAL_ERROR, "Empty path for partitioned write");
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fs::create_directories(fs::path(path_for_partitioned_write).parent_path());
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return std::make_shared<PartitionedStorageFileSink>(
insert_query->partition_by,
metadata_snapshot,
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getStorageID().getNameForLogs(),
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std::unique_lock{rwlock, getLockTimeout(context)},
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base_path,
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path_for_partitioned_write,
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chooseCompressionMethod(path_for_partitioned_write, compression_method),
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format_settings,
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format_name,
context,
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flags);
}
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else
{
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String path;
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if (!paths.empty())
{
if (is_path_with_globs)
throw Exception(ErrorCodes::DATABASE_ACCESS_DENIED,
"Table '{}' is in readonly mode because of globs in filepath",
getStorageID().getNameForLogs());
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path = paths.back();
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fs::create_directories(fs::path(path).parent_path());
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std::error_code error_code;
if (!context->getSettingsRef().engine_file_truncate_on_insert && !is_path_with_globs
&& !FormatFactory::instance().checkIfFormatSupportAppend(format_name, context, format_settings)
&& fs::file_size(paths.back(), error_code) != 0 && !error_code)
{
if (context->getSettingsRef().engine_file_allow_create_multiple_files)
{
auto pos = paths[0].find_first_of('.', paths[0].find_last_of('/'));
size_t index = paths.size();
String new_path;
do
{
new_path = paths[0].substr(0, pos) + "." + std::to_string(index) + (pos == std::string::npos ? "" : paths[0].substr(pos));
++index;
}
while (fs::exists(new_path));
paths.push_back(new_path);
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path = new_path;
}
else
throw Exception(
ErrorCodes::CANNOT_APPEND_TO_FILE,
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"Cannot append data in format {} to file, because this format doesn't support appends."
" You can allow to create a new file "
"on each insert by enabling setting engine_file_allow_create_multiple_files",
format_name);
}
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}
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return std::make_shared<StorageFileSink>(
metadata_snapshot,
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getStorageID().getNameForLogs(),
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std::unique_lock{rwlock, getLockTimeout(context)},
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table_fd,
use_table_fd,
base_path,
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path,
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chooseCompressionMethod(path, compression_method),
format_settings,
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format_name,
context,
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flags);
}
}
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bool StorageFile::storesDataOnDisk() const
{
return is_db_table;
}
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Strings StorageFile::getDataPaths() const
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{
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if (paths.empty())
throw Exception(ErrorCodes::DATABASE_ACCESS_DENIED, "Table '{}' is in readonly mode", getStorageID().getNameForLogs());
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return paths;
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}
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void StorageFile::rename(const String & new_path_to_table_data, const StorageID & new_table_id)
{
if (!is_db_table)
throw Exception(ErrorCodes::DATABASE_ACCESS_DENIED,
"Can't rename table {} bounded to user-defined file (or FD)", getStorageID().getNameForLogs());
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if (paths.size() != 1)
throw Exception(ErrorCodes::DATABASE_ACCESS_DENIED, "Can't rename table {} in readonly mode", getStorageID().getNameForLogs());
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std::string path_new = getTablePath(base_path + new_path_to_table_data, format_name);
if (path_new == paths[0])
return;
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fs::create_directories(fs::path(path_new).parent_path());
fs::rename(paths[0], path_new);
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paths[0] = std::move(path_new);
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renameInMemory(new_table_id);
}
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void StorageFile::truncate(
const ASTPtr & /*query*/,
const StorageMetadataPtr & /* metadata_snapshot */,
ContextPtr /* context */,
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TableExclusiveLockHolder &)
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{
if (is_path_with_globs)
throw Exception(ErrorCodes::DATABASE_ACCESS_DENIED, "Can't truncate table '{}' in readonly mode", getStorageID().getNameForLogs());
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if (use_table_fd)
{
if (0 != ::ftruncate(table_fd, 0))
throwFromErrno("Cannot truncate file at fd " + toString(table_fd), ErrorCodes::CANNOT_TRUNCATE_FILE);
}
else
{
for (const auto & path : paths)
{
if (!fs::exists(path))
continue;
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if (0 != ::truncate(path.c_str(), 0))
throwFromErrnoWithPath("Cannot truncate file " + path, path, ErrorCodes::CANNOT_TRUNCATE_FILE);
}
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}
}
void registerStorageFile(StorageFactory & factory)
{
StorageFactory::StorageFeatures storage_features{
.supports_settings = true,
.supports_schema_inference = true,
.source_access_type = AccessType::FILE,
};
factory.registerStorage(
"File",
[](const StorageFactory::Arguments & factory_args)
{
StorageFile::CommonArguments storage_args
{
WithContext(factory_args.getContext()),
factory_args.table_id,
{},
{},
{},
factory_args.columns,
factory_args.constraints,
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factory_args.comment,
{},
};
ASTs & engine_args_ast = factory_args.engine_args;
if (!(engine_args_ast.size() >= 1 && engine_args_ast.size() <= 3)) // NOLINT
throw Exception(ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH,
"Storage File requires from 1 to 3 arguments: "
"name of used format, source and compression_method.");
engine_args_ast[0] = evaluateConstantExpressionOrIdentifierAsLiteral(engine_args_ast[0], factory_args.getLocalContext());
storage_args.format_name = checkAndGetLiteralArgument<String>(engine_args_ast[0], "format_name");
// Use format settings from global server context + settings from
// the SETTINGS clause of the create query. Settings from current
// session and user are ignored.
if (factory_args.storage_def->settings)
{
FormatFactorySettings user_format_settings;
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// Apply changed settings from global context, but ignore the
// unknown ones, because we only have the format settings here.
const auto & changes = factory_args.getContext()->getSettingsRef().changes();
for (const auto & change : changes)
{
if (user_format_settings.has(change.name))
{
user_format_settings.set(change.name, change.value);
}
}
// Apply changes from SETTINGS clause, with validation.
user_format_settings.applyChanges(
factory_args.storage_def->settings->changes);
storage_args.format_settings = getFormatSettings(
factory_args.getContext(), user_format_settings);
}
else
{
storage_args.format_settings = getFormatSettings(
factory_args.getContext());
}
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if (engine_args_ast.size() == 1) /// Table in database
return std::make_shared<StorageFile>(factory_args.relative_data_path, storage_args);
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/// Will use FD if engine_args[1] is int literal or identifier with std* name
int source_fd = -1;
String source_path;
if (auto opt_name = tryGetIdentifierName(engine_args_ast[1]))
{
if (*opt_name == "stdin")
source_fd = STDIN_FILENO;
else if (*opt_name == "stdout")
source_fd = STDOUT_FILENO;
else if (*opt_name == "stderr")
source_fd = STDERR_FILENO;
else
throw Exception(ErrorCodes::UNKNOWN_IDENTIFIER, "Unknown identifier '{}' in second arg of File storage constructor",
*opt_name);
}
else if (const auto * literal = engine_args_ast[1]->as<ASTLiteral>())
{
auto type = literal->value.getType();
if (type == Field::Types::Int64)
source_fd = static_cast<int>(literal->value.get<Int64>());
else if (type == Field::Types::UInt64)
source_fd = static_cast<int>(literal->value.get<UInt64>());
else if (type == Field::Types::String)
source_path = literal->value.get<String>();
else
throw Exception(ErrorCodes::BAD_ARGUMENTS, "Second argument must be path or file descriptor");
}
if (engine_args_ast.size() == 3)
{
engine_args_ast[2] = evaluateConstantExpressionOrIdentifierAsLiteral(engine_args_ast[2], factory_args.getLocalContext());
storage_args.compression_method = checkAndGetLiteralArgument<String>(engine_args_ast[2], "compression_method");
}
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else
storage_args.compression_method = "auto";
if (0 <= source_fd) /// File descriptor
return std::make_shared<StorageFile>(source_fd, storage_args);
else /// User's file
return std::make_shared<StorageFile>(source_path, factory_args.getContext()->getUserFilesPath(), storage_args);
},
storage_features);
}
NamesAndTypesList StorageFile::getVirtuals() const
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{
return NamesAndTypesList{
{"_path", std::make_shared<DataTypeLowCardinality>(std::make_shared<DataTypeString>())},
{"_file", std::make_shared<DataTypeLowCardinality>(std::make_shared<DataTypeString>())}};
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}
SchemaCache & StorageFile::getSchemaCache(const ContextPtr & context)
{
static SchemaCache schema_cache(context->getConfigRef().getUInt("schema_inference_cache_max_elements_for_file", DEFAULT_SCHEMA_CACHE_ELEMENTS));
return schema_cache;
}
std::optional<ColumnsDescription> StorageFile::tryGetColumnsFromCache(
const Strings & paths, const String & format_name, const std::optional<FormatSettings> & format_settings, ContextPtr context)
{
/// Check if the cache contains one of the paths.
auto & schema_cache = getSchemaCache(context);
struct stat file_stat{};
for (const auto & path : paths)
{
auto get_last_mod_time = [&]() -> std::optional<time_t>
{
if (0 != stat(path.c_str(), &file_stat))
return std::nullopt;
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return file_stat.st_mtime;
};
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auto cache_key = getKeyForSchemaCache(path, format_name, format_settings, context);
auto columns = schema_cache.tryGet(cache_key, get_last_mod_time);
if (columns)
return columns;
}
return std::nullopt;
}
void StorageFile::addColumnsToCache(
const Strings & paths,
const ColumnsDescription & columns,
const String & format_name,
const std::optional<FormatSettings> & format_settings,
const ContextPtr & context)
{
auto & schema_cache = getSchemaCache(context);
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auto cache_keys = getKeysForSchemaCache(paths, format_name, format_settings, context);
schema_cache.addMany(cache_keys, columns);
}
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}